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Fourier Transforms. Fourier series. To go from f( ) to f( t ) substitute To deal with the first basis vector being of length 2 instead of , rewrite as. Fourier series. The coefficients become. Fourier series. Alternate forms where. Complex exponential notation. Euler’s formula.
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Fourier Transforms University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell
Fourier series • To go from f( ) to f(t) substitute • To deal with the first basis vector being of length 2 instead of , rewrite as University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell
Fourier series • The coefficients become University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell
Fourier series • Alternate forms • where University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell
Complex exponential notation • Euler’s formula Phasor notation: University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell
Euler’s formula • Taylor series expansions • Even function ( f(x) = f(-x) ) • Odd function ( f(x) = -f(-x) ) University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell
Complex exponential form • Consider the expression • So • Since an and bnare real, we can let and get University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell
Complex exponential form • Thus • So you could also write University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell
Fourier transform • We now have • Let’s not use just discrete frequencies, n0, we’ll allow them to vary continuously too • We’ll get there by setting t0=-T/2 and taking limits as T and n approach University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell
Fourier transform University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell
Fourier transform • So we have (unitary form, angular frequency) • Alternatives (Laplace form, angular frequency) University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell
Fourier transform • Ordinary frequency University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell
Fourier transform • Some sufficient conditions for application • Dirichlet conditions • f(t) has finite maxima and minima within any finite interval • f(t) has finite number of discontinuities within any finite interval • Square integrable functions (L2 space) • Tempered distributions, like Dirac delta University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell
Fourier transform • Complex form – orthonormal basis functions for space of tempered distributions University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell
Convolution theorem Theorem Proof (1) University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell